Interaction of Disturbances in Shear Flows Bio-based Solutions for Aero- and Hydrodynamic Efficiency
Auteur : Babenko Viktor V.
Interaction of Disturbances in Shear Flows aims to provide a comprehensive, in-depth overview of the current state of knowledge on the subject. Authored by a recognized expert with decades of experience and many software patents to his credit, the volume covers advances in computational fluid dynamics to showcase innovative ways to apply physical measurements and visualization patterns to solve various aero- and hydrodynamic problems. It also delves into analytical methodologies to compare and contrast with the theoretical models most commonly used in the field. Additionally, it demonstrates the significance of comprehending and managing disturbances in shear flows, discussing practical applications of the research to optimize the design of aircraft, automotive vehicles, and marine vessels, with a strong emphasis on enhancing aero- and hydrodynamic efficiency, fuel economy, and the reduction of harmful emissions. Academia and industry readers alike will find this a useful resource to equip themselves with the tools needed to understand and address practical engineering challenges encountered in their studies or work.
1. Interaction of disturbances in the boundary layer 2. Coherent vortex structures in shear flows 3. Analysis of the boundary layer by the tellurium method when flowing around a rigid plate 4. Analysis of the boundary layer of a rigid plate with a laser Doppler velocity meter 5. Formation of longitudinal vortices in the boundary layer of elastic plates 6. Implementation of results 7. Formation of vortices in the boundary layer when flowing around cavities 8. Vortex structures in the boundary layer in the flow around vortex generators 9. Coherent vortex structures arising from the flow around wings 10. Control of vortex structures arising in swirling flows
- Proposes a bionic approach for the control of shear flows
- Presents data obtained through flow visualization using the tellurium method and multicolored tinted jets.
- Offers a complete picture of shear flows, taking an interdisciplinary approach.
- Applies practical solutions to problems being studied both in academia and industry.
Date de parution : 02-2024
Ouvrage de 536 p.
15.2x22.8 cm
Thèmes d’Interaction of Disturbances in Shear Flows :
- maths appliquées
- Transports et leur technologie
- Génie civil - bâtiment - travaux publics
- Aéronautique
- Marine et transports maritimes
- Ouvrages généraux de physique
- Mécanique
- Industries mécaniques
- conception, projets multimédia. généralités.
- mécanique des fluides appliquée / hydraulique / fluidique / hydrodynamique
Mots-clés :
<; P>; Computational fluid dynamics; fluid-structure interaction; fluid dynamics; fluid flow around bodies; coherent vortex structures; boundary layer; turbulent boundary layer; 2D disturbances; 3D disturbances; tellurium method; vortex generators; wake of oscillating profiles; wake turbulence; turbulence modeling; low turbulence; delta wing; waving fin mover; swirling flows; aerodynamics; hydrodynamics; aeromechanics; hydromechanics; hydro-aeromechanics; shear flows; receptivity of boundary layer; vortical chamber; high-speed surface devices; rigid plates; laser Doppler velocity meter; hot-wire anemometer; design of elastic plates; oscillating plates; drag reduction; noiseless movement; optimal maneuvering; intensive heat transfer; mass transfer; control of separated vortices; wind energy; economical energy consumption; aircraft; Aeroprakt A-20 aircraft model; multi-colored tinted jets; calculation methods; supersonic vehicles; engine building; vortex chambers; nonlinear physics.<; /P>
